Fitgenes examines a number of genes in categories and their influence on:
- Inflammation – our body’s natural defence mechanism. How our body protects itself from DNA damage.
- Vitamin D Receptors – found in almost all cells, a key influence on bone health, immunity, skin and the nervous system.
- Methylation and Homocysteine Metabolism – influences the processing of brain chemicals determining emotional wellbeing.
- Cardiovascular Health – the effectiveness of the system delivering oxygen and nutrients to every cell.
- Fat and Cholesterol Metabolism – influences healthy weight management, appetite control and satiety.
Genetic Profiling for Personalised Health
Fitgenes is founded on the science of nutrigenomics and an understanding that overall health and wellbeing is determined at a cellular level.
Personalised genetic profiling offers insight in to how our body responds to diet, nutrition, exercise and lifestyle. Knowing how to accurately interpret the results and turn them in to actionable, everyday health and wellbeing is where Fitgenes and our practitioners excel. Fitgenes is founded on the science of nutrigenomics and an understanding that overall health and wellbeing is determined at a cellular level. The DNA contained in our cells send ‘messages’, known as ‘gene expression’, that tells the body how to respond to external influences.
Gene expression is modifiable which means our genes are not our destiny, and DNA damage can be repaired. Through the right profile, interpretation and intervention planning, we can make the right nutritional, exercise and lifestyle choices for long-term health and wellbeing.
A Fitgenes practitioner’s careful interpretation of the genes included in our analysis can provide focused assistance with choosing the right exercise interventions, others on your nutritional interventions and others on your lifestyle choices.
The reports provided are comprehensive and provide a lot of information around the impact of gene expression and guidance around choosing better nutritional choices that match your genes. This is a very targeted and personalised approach to healthcare.
Discover the powerful interaction between genetics, diet and lifestyle to meet your personal health and performance goals.
Fitgenes Health and Wellbeing genetic profile report is an in-depth analysis of the genetic variations that can influence the way the body responds to what we eat, how we exercise and the way we live.
Personalised Genetic Profiling
Personalised genetic profiling offers profound insight into how your body responds to diet, exercise and lifestyle choices. Understanding how to interpret the results of your profile report and convert the information in to programs for actionable, everyday health and wellbeing, is where Fitgenes and our accredited practitioners can offer you the potential to be the best you can be.
Our approach is based on the science of nutrigenomics which looks at the interaction between your genes, nutrition and lifestyle choices, and how these influence the genes’ messages. These messages instruct your body on how it should respond to external influences such as diet and lifestyle choices.
The good news is expression of the genes analysed by Fitgenes is modifiable which means our genes are not our destiny.
Our comprehensive Health and Wellbeing Genetic Profile Report is interpreted by a Fitgenes Accredited Practitioner so they can design a personalised plan to meet individual health goals. Effectively, how your genes are reacting to external factors is analysed and reported on, and a plan to address any negative reactions prepared, based on your unique genetic profile and needs.
Fitgenes profile reports are unique and provide practitioners with a powerful resource to design health plans that are highly personalised. These are not one-size-fits-all plans modified to suit different people.
Carb Choice and Your AMY1 CNV
Fitgenes Australia is a world leader in offering the latest information on the role the AMY 1 gene plays in starch carbohydrate metabolism. We have developed CarbChoice, a personalised genetic profile report of the AMY1 gene CNV, which determines how effectively you metabolise starch from carbohydrates.
Why should you care about your AMY1 gene?
Scientific studies have shown that variations in the human salivary amylase gene (AMY1) differ based on populations, which have traditionally eaten high starch diets, compared to those who have traditionally eaten low starch diets. Variations within the AMY1 gene influence how well your body can breakdown and process starch, meaning that some people can tolerate these carbohydrates better than others. Starch is the most common carbohydrate included in human diets – however, there is a considerable range of variation between cultures of dietary starch intake. Traditionally, “high starch” populations tended to be agricultural societies and arid region hunter-gathers, while “low starch” populations included rainforest and arctic hunter-gatherers and some pastoralists.
Importance of the AMY1 Gene, AMY1 is a gene that produces the enzyme ‘amylase’.
What is Amylase?
Amylase is found in our saliva and plays a major role in the digestion of starch, which is a carbohydrate found in grains, legumes, fruit, vegetables, nuts and seeds. Amylase begins the process of carbohydrate metabolism in the mouth.
What will knowing my AMY1 gene copy number variation tell me?
A lower AMY1 copy number indicates:
Test your AMY 1 gene to help you understand:
- How effectively do you metabolise and tolerate carbohydrates
- How effectively do you metabolise and tolerate gluten
- Do carbohydrates put you at an increased risk of being overweight
- Do carbohydrates put you at an increased risk of having diabetes
- How many grams of carbohydrates can you eat per day
- What type of carbohydrates should you avoid
- How effectively do you use your carbohydrates for energy
Who should test their AMY 1 Gene?
Anyone who wants to understand how their body metabolises and tolerates carbohydrates and make the best dietary choices for themselves.
- Gluten intolerant or Coeliacs
- Food sensitivities
- Struggling to lose weight or maintain weight loss
- Diabetic or insulin resistant
- Gut dysbiosis under or over growth
- Autoimmune issues
- Persistent infections such as thrush or urinary tract infections
- Have periodontal (gum) disease